Cutting Insulators with Advanced Technologies


At Ackermann Printing, we specialize in cutting insulators using advanced technologies, employing a variety of innovative methods such as laser cutting, CNC cutting, and advanced die-cutting (full cut or kiss cut). We provide custom-tailored solutions for clients in the defense, aerospace, medical, and private sectors.


We are equipped with state-of-the-art inspection equipment, including an optical comparator, ensuring the highest level of precision throughout the entire production process.

EPDM


A synthetic rubber known for its exceptional resistance to heat, UV radiation, ozone, and harsh environmental conditions. It is primarily used in sealing, thermal insulation, and in the automotive and construction industries.


Teflon (PTFE)


Renowned for its high chemical resistance, ability to withstand extreme temperatures, and low friction coefficient. It is commonly used for non-stick coatings, seals, and various industrial components.


Silicone


A highly flexible material that remains stable in both high and low temperatures. It is widely used for electrical and thermal insulation,


as well as in medical applications and the food industry.


Polycarbonate


A strong, transparent polymer known for its high impact resistance and heat tolerance. It is commonly used in protective shields, durable windows, and engineering components.


Thermal Insulators


A range of plastic materials specifically designed to provide excellent

thermal insulation, used in a variety of industrial applications such as electronics, automotive, and construction.


Epoxy Glass


A composite material made of epoxy resin

and glass fibers, combining high mechanical strength with excellent thermal and electrical insulation properties. Epoxy glass is favored across various industrial fields due to its unique characteristics:


Key Features:


  • Extremely high mechanical strength – resistant to bending, tension, and pressure
  • High thermal resistance
  • Excellent electrical insulation – very low electrical conductivity, making it ideal as an insulating board
  • Strong chemical resistance – withstands acids, bases, oils, and other substances


Common Applications:


  • Printed Circuit Boards (PCBs) – especially G10 and FR4 types
  • Electrical insulators – spacers, mounts, and frames for high-voltage systems
  • Structural components in the aerospace industry – due to its excellent strength-to-weight ratio
  • Anti-static work surfaces – for sensitive electronic equipment
  • Molds, jigs, and fixtures – for precise machining processes
  • Defense and medical industries – thanks to its high thermal and biological resistance